Exterior mirror element with wide angle portion

ABSTRACT

A mirror reflective element suitable for use in an exterior rearview mirror assembly of a vehicle includes a glass substrate and a principal reflector portion and an auxiliary wide angle curved portion. The auxiliary wide angle curved portion has a curved recess established at a region of the rear surface of the glass substrate by at least one of grinding and ablating. The curved recess may have a cross-dimension size that is in the range from about 30 millimeters to about 80 millimeters, and may have a radius of curvature that is in the range from about 200 millimeters to about 1,000 millimeters, and may have a maximum recess depth that is in the range from about 0.11 millimeters to about 4.04 millimeters.

CROSS REFERENCE TO RELATED APPLICATIONS

The present application is a continuation of U.S. patent applicationSer. No. 13/097,570, filed Apr. 29, 2011 (Attorney Docket DON09 P-1694),which is a continuation of U.S. patent application Ser. No. 12/971,228,filed Dec. 17, 2010, now U.S. Pat. No. 7,934,844, which is acontinuation of U.S. patent application Ser. No. 12/893,242, filed Sep.29, 2010, now U.S. Pat. No. 7,887,204, which is a continuation of U.S.patent application Ser. No. 12/776,780, filed May 10, 2010, now U.S.Pat. No. 7,824,045, which is a continuation of U.S. patent applicationSer. No. 12/124,297, filed May 21, 2008, now U.S. Pat. No. 7,748,856,which claims the benefit of U.S. provisional application Ser. No.60/939,753, filed May 23, 2007, which are hereby incorporated herein byreference in their entireties.

FIELD OF THE INVENTION

The present invention relates to exterior rearview mirror assembliesand, more particularly, to an exterior rearview mirror assembly havingan auxiliary wide angle reflector portion or optic for providing thedriver with a wider angle rearward field of view as compared to asubstantially planar portion of the rearview mirror.

BACKGROUND OF THE INVENTION

It is known to provide a wide angle rearward field of view to a driverof a vehicle via a wide angle reflective element at one or both of theexterior rearview mirror assemblies. Such a wide angle rearward field ofview may be provided via a curved mirror reflector, or an auxiliary wideangle reflective element may be provided at a portion of a generallyplanar mirror reflector, such as via a stick on curved auxiliaryreflector element attached to the generally planar mirror reflector.Such add-on curved auxiliary reflectors may be provided at the frontsurface or first surface (the surface of the mirror reflector that isgenerally facing rearward and at least partially toward the driver ofthe vehicle) and provide a reduced image size (as compared to the sizeof the generally planar reflector) wide angle rearward field of viewthat is readily viewable by the driver of the vehicle. However, suchcurved, auxiliary wide angle reflectors are additional components andadd to the cost and manufacturing complexity of the mirror assembly.Other auxiliary wide angle reflectors have been proposed, such as thosedescribed in U.S. Pat. Nos. 6,315,419; 7,097,312; and/or 6,522,451,which are hereby incorporated herein by reference in their entireties.

SUMMARY OF THE INVENTION

The present invention provides an exterior rearview mirror reflector orreflective element having a generally planar (or slightly curved)principal reflector portion and an auxiliary wide angle reflectorportion integrally formed at the mirror substrate.

According to an aspect of the present invention, an exterior rearviewmirror assembly for a vehicle includes a mirror reflective elementcomprising a mirror substrate having a front surface and a rear surface.The mirror substrate comprises a first reflector portion and a secondreflector portion, with the first reflector portion comprising aprincipal reflector portion of the mirror reflective element. The rearsurface of the mirror substrate has a curved recess established thereat,and the second curved reflector portion is established at the curvedrecess. The curved recess has a radius of curvature that is less than aradius of curvature of the first reflector portion (where the radius ofcurvature of the first reflector portion may be substantially infinityfor a generally flat or planar mirror element or substrate with agenerally flat or planar principal reflector portion, or may be ameasurable radius for a curved or slightly curved or bent mirror elementand/or substrate), whereby the curved recess, when coated by a reflectorcoating, provides a wide angle auxiliary reflector portion integrallyformed with the mirror reflective element (such as by physicallyremoving, such as by grinding or sculpting or physically ablating or thelike, a portion of the substrate so as to create or establish a physicaldish-shaped convex depression or recess or crater at the surface of thesubstrate).

The mirror reflective element may comprise an electro-optic mirrorreflective element having a first or front mirror substrate and a secondor rear mirror substrate and an electro-optic medium disposedtherebetween. The curved recess is established at a rear surface of thesecond or rear mirror substrate. The first reflector portion maycomprise a metallic reflector disposed at a front surface of the rearmirror substrate and between the rear mirror substrate and theelectro-optic medium. The metallic reflector at the front surface of therear mirror substrate has a window established thereat, with the windowsubstantially corresponding to a location of the curved recess at therear surface of the mirror substrate. Optionally, the first reflectorportion may comprise a metallic reflector disposed at the rear surfaceof the rear mirror substrate, with the second reflector portioncomprising the metallic reflector disposed at the curved recess.

Therefore, the present invention provides an auxiliary wide angle mirrorreflector portion that is integrally formed with the mirror substrateand mirror reflective element. The present invention thus provides anauxiliary wide angle reflector portion without additional components orelements being adhered to the front or rear surface of the reflectiveelement, and thus provides an enhanced mirror reflective element withsuch an auxiliary wide angle reflector portion. The present inventionprovides a curved wide angle reflector portion that is behind the firstor front surface of the mirror reflective element so that the first orfront surface of the mirror reflective element comprises a generally orsubstantially planar surface with the curved reflector portionestablished or formed behind and viewable through the generally orsubstantially planar front surface of the mirror reflective element.

These and other objects, advantages, purposes and features of thepresent invention will become apparent upon review of the followingspecification in conjunction with the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a front elevation of an exterior mirror assembly with anauxiliary wide angle reflector in accordance with the present invention,shown as viewed in the direction of travel of the vehicle;

FIG. 2 is a front elevation of an exterior mirror reflector inaccordance with the present invention;

FIG. 3 is a sectional view of the mirror reflector of FIG. 2;

FIG. 4 is a schematic of the curvature of the auxiliary wide anglereflector of the present invention;

FIG. 5 is a table showing dimensions of the auxiliary wide anglereflector for various applications thereof in accordance with thepresent invention;

FIG. 6 is a sectional view of another mirror reflector in accordancewith the present invention;

FIG. 7 is a plan view of the mirror reflector of FIG. 6; and

FIG. 8 is a sectional view of another mirror reflector in accordancewith the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring now to the drawings and the illustrative embodiments depictedtherein, an exterior rearview mirror assembly 10 for a vehicle includesa mirror reflector or reflective element 12 received in and/or supportedby a mirror shell or casing 14 (FIG. 1). Mirror assembly 10 is mountedat the side 16 a of a host or subject vehicle 16. Mirror reflector 12includes a first or principal mirror reflective element portion 18 and asecond or auxiliary wide angle reflective element portion or reflectiveoptic 20 integrally formed with the mirror reflector 12, as discussedbelow. The auxiliary wide angle optic may be integrally formed such asby physically removing, such as by grinding or sculpting or physicalablation or the like, a portion of the substrate so as to create orestablish a physical dish-shaped generally convex-shaped depression orrecess or crater at the surface of the substrate, and coating the formeddepression or recess with a reflector coating or element or the like, asalso discussed below.

In the illustrated embodiment, and as shown in FIG. 3, mirror reflector12 comprises an electro-optic reflective element (but could comprise anon-electro-optic reflective element) having a front substrate 22, arear substrate 24 and an electro-optic medium 26 (such as a solidpolymer matrix electrochromic medium or the like) sandwichedtherebetween and sealed via a perimeter seal 28. Front substrate 22 hasa transparent conductor coating 30 (such as an indium tin oxide (ITO)coating or layer) disposed at its rear surface 22 a, while rearsubstrate 24 has a mirror reflector or coating 32 (such as anon-dichroic transflector, such as an ITO/Ag/ITO stack of layers orcoatings or the like) and a transparent conductor layer 34 (such as anITO or F-doped or As-doped tin oxide layer or the like) disposed at itsfront surface 24 a. The mirror reflector 12 thus comprises a thirdsurface electro-optic mirror element (such as an electrochromic mirrorelement). The front and rear substrates 22, 24 may comprise generallyplanar mirror substrates or may have a slight radius of curvature toprovide a wider angle field of view across the principal reflectorportion 18 depending on the particular application of the mirrorreflective element and exterior rearview mirror assembly.

As shown in FIG. 3, the transparent conductor layer 34 is established ordisposed at substantially the entire principal reflecting portion of thereflective element, while the mirror reflector 32 is disposed at thetransparent conductor layer 34 and with a window 32 a masked or formedthrough the mirror reflector 32 (such that a window area 32 a of therear substrate is substantially devoid of the mirror reflector coating,while the mirror reflector or coating is present at the other regions ofthe principal reflecting area of the rear substrate of the reflectiveelement). The window 32 a may be formed via any suitable means, such asvia masking of the window area during sputter deposition of the mirrorreflector 32 or the like, such as via utilizing aspects of the coatingprocesses described in U.S. patent application Ser. No. 11/021,065,filed Dec. 23, 2004 by McCabe et al. for ELECTRO-OPTIC MIRROR CELL, nowU.S. Pat. No. 7,255,451, which is hereby incorporated herein byreference in its entirety. The transparent conductor 34 is disposed oversubstantially the entire front surface 24 a of the rear substrate and atthe window region so as to provide a conductive layer or surface at theelectro-optic medium 26 and over substantially the entire interfacebetween the rear substrate and the electro-optic medium. Thus,electrical conductivity is preserved between the glass substrate and theelectro-optic medium across the interface surface of the substrateincluding at the window region, so as to provide substantially uniformdimming of the mirror reflective element (i.e. darkening of theelectro-optic medium) when an electrical voltage is applied to theconductive coatings at the opposed surfaces of the front and rearsubstrates.

As shown in FIG. 3, rear substrate 24 has the curved auxiliary wideangle mirror reflector portion 20 integrally formed therewith. In theillustrated embodiment, the auxiliary wide angle mirror reflectorportion 20 or spotter element comprises a curved (such as convex orspherical or aspherical) formation or depression or recess 24 c formedor established (such as via grinding of the rear surface of the glasssubstrate or other suitable means) at the rear surface 24 b of rearsubstrate 24. The curved recess 24 c is integrally formed as part of therear substrate and is formed at a rear surface location that isgenerally opposite or generally aligned with the window 32 a formed atthe mirror reflector 32 at the front surface 24 a of the rear substrate24. A mirror reflector or reflective coating 36 (such as a metallicreflector coating, such as aluminum or silver or chromium or alloysthereof or the like) is disposed or established (such as via sputterdeposition or chemical deposition or other establishing means) at therear or fourth surface 24 b of rear substrate 24 and at least atencompassing the curved recess 24 c to form the curved spotter orauxiliary wide angle mirror reflector portion 20. Optionally, such as ifthe reflector coating 36 is environmentally fragile or non-robust, asealing or protective layer (not shown), such as a lacquer or paint orink or the like, may be established over the reflector coating tosubstantially seal the reflector coating and/or to protect the reflectorcoating.

As shown in FIG. 3, the rear reflector coating 36 may be establishedsubstantially only at the curved recess and the region substantiallyimmediately surrounding the curved recess, or the rear reflector coatingmay cover more of the rear surface of the rear substrate. Optionally, ifthe mirror reflective element is a transflective display-on-demand typeof mirror reflective element, a window or aperture may be formed throughthe rear reflector coating (such as in applications where the rearreflector coating extends at least partially or substantially over therear surface of the substrate and at the principal reflecting portion ofthe mirror reflective element) for a display element or illuminationsource to project illumination therethrough.

Thus, the auxiliary wide angle mirror reflector portion 20 provides awide angle rearward field of view to the driver of the vehicle ascompared to the field of view provided by the generally planar orslightly curved principal reflecting area or portion 18 of the mirrorreflective element 12. The diameter or cross dimension of the wide anglemirror reflector portion and the radius of curvature (with a smallerradius of curvature providing a wider angle rearward field of view) ofthe wide angle mirror reflector portion 20 are selected to provide thedesired wide angle rearward field of view, while being established at adesired or appropriate depth at the rear surface of the rear substrate.The curved recess has a radius of curvature that is smaller andpreferably substantially smaller than the radius of curvature of theprincipal reflector portion, which may have a large radius of curvaturethat may approach infinity, such as for a slightly curved to generallyor substantially planar or flat mirror element.

As can be seen with reference to FIGS. 4 and 5, for a spherical orconvex construction, the diameter or cross dimension or size D (thedimension across the reflective element) of the auxiliary wide anglereflector portion and the radius of curvature R of the wide anglereflector portion determine the depth H of the recess to be formed atthe rear surface of the rear substrate. Thus, the thickness of the glasssubstrate should be selected to have a thickness that allows for theformation of the curved recess at its rear surface while limiting theaffect of the curved recess on the structural integrity of the mirrorreflective element. If a larger size or cross dimension or diameter(such as about 60 mm to about 80 mm or thereabouts, such as may be usedon an exterior rearview mirror for a larger vehicle, such as a truck orthe like) of the auxiliary wide angle reflector portion and/or a smallerradius of curvature (such as about 200 mm to about 400 mm orthereabouts) of the auxiliary wide angle reflector portion is/aredesired, the glass substrate should be thick enough to have such arecess formed at its rear surface (with the recess possibly being about1 mm deep to about 4 mm deep or thereabouts) without adversely effectingthe structural integrity of the reflective element. For example, andwith reference to FIGS. 4 and 5, if a 2 mm thick glass substrate isselected for the reflective element, an auxiliary wide angle reflectorhaving a diameter or cross dimension D of up to about 70 mm could beachieved with a 400 mm radius of curvature R by grinding a curved recesshaving a chord height or depth H of about 1.53 mm into the rear surfaceof the substrate and thus leaving about 0.47 mm of glass at the apex ofthe curved recess.

Although several radii of curvature and diameters/cross dimensions areshown in the table of FIG. 5, clearly other sizes and/or radii ofcurvature or multiple radii of curvature and/or combinations thereof maybe implemented without affecting the scope of the present invention.Optionally, for a given size or diameter of the auxiliary wide anglereflector portion, it may be desirable to provide the smallest radius ofcurvature of the curved recess (while maintaining the desired structuralintegrity of the glass substrate and/or reflective element) so as toprovide a wider angle rearward field of view to the driver of thevehicle via the auxiliary wide angle reflector portion. Although theradii of curvature and diameters and chord heights or recess depths areshown for spherical formations or constructions, aspherically formedrecesses or constructions may be integrally established at the rearsurface of the rear substrate to provide other, aspheric or non-uniformwide angle field of views, without affecting the scope of the presentinvention. For such applications, the depth of the aspheric curvedrecess should be determined to ensure that the curved recess is notestablished too deep into rear surface of the glass substrate for theparticular applications. Thus, the auxiliary wide angle reflector optic,as viewed through the front surface of the reflective element by aviewer viewing the front or front surface of the reflective element, canbe a spherical or aspherical reflector optic, depending on theparticular application of the reflective element and mirror assembly andthe desired rearward field of view provided by the auxiliary wide anglereflector optic.

Although shown as a generally circular-shaped auxiliary wide anglemirror reflector portion, the auxiliary wide angle mirror reflectorportion of the present invention may comprise other shapes and/or may beotherwise located or established at the mirror reflective element, whileremaining within the spirit and scope of the present invention.Optionally, the wide angle reflector may comprise a generallyconvex-shaped reflector, such as a spherically convex shape, or the wideangle reflector may comprise a generally convex-shaped reflector havinga compound curvature convex shape, such as a multi-radius shape oraspherical shape or the like. For example, the auxiliary wide anglemirror reflector portion may be formed or sculpted or drilled or groundat a corner or outboard region, preferably an outboard, upper region ofthe mirror substrate relative to the side of a vehicle to which themirror would be mounted and viewed by a driver of that vehicle (orelsewhere depending on the particular application), and may comprise apartial circle or partial spherical depression or recess or other shape(such as multi-radius or non-spherical or aspherical shape or segment orsuch as a rectangular shape that may be curved as a partialcylindrical-shaped recess or the like). Optionally, the wide anglereflector may be formed or sculpted or drilled at the rear surface ofthe substrate so that the reflector is effectively canted relative tothe mirror substrate so as to reflect the wide angle image toward thedriver of the vehicle. The rear surface of the corner region of themirror substrate may be formed or ground or sculpted or otherwiseprocessed to provide the desired shape and/or contour/curvature of theauxiliary reflector portion, and the rear surface of the mirrorsubstrate may be coated or otherwise processed to provide the mirrorreflector at the established curved recess at the corner region of themirror substrate, such as in a similar manner as described above. Thewide angle reflector may utilize aspects of the mirror assembliesdescribed in U.S. Pat. Nos. 6,315,419; 7,097,312; and/or 6,522,451;and/or PCT International Publication WO 01/81956 A1 to George E. PlatzerJr. entitled “Compound Automotive Rearview Mirror”; and/or U.S. patentapplication Ser. No. 11/226,628, filed Sep. 14, 2005 and published Mar.23, 2006 as U.S. Publication No. US-2006-0061008; and/or Ser. No.11/912,576, filed Oct. 25, 2007, now U.S. Pat. No. 7,626,749; and/orU.S. provisional applications, Ser. No, 61/050,810, filed May 6, 2008;and/or Ser. No. 61/050,853, filed May 6, 2008, which are herebyincorporated herein by reference in their entireties.

In accordance with what is disclosed in U.S. Pat. No. 6,522,451 (aboveincorporated herein by reference in its entirety), a plano elementand/or a multiradius element can comprise a variable reflectanceelectro-optic element such as an electrochromic mirror reflector. Thus,both the plano element and the multiradius element can comprise anelectrochromic mirror element or either of the plano element and theplano element can comprise an electrochromic mirror element and theother can comprise a fixed reflectance non-variable reflectance mirrorelement such as a metal reflector coated glass panel such as a chromiumcoated glass substrate. Also, if both the plano element and themultiradius element comprise an electro-optic element such as anelectrochromic mirror element capable of electrically dimmablereflectivity, both elements can dim together and in tandem under controlof a common dimming control signal (typically provided by anelectro-optic automatic dimming interior mirror assembly mounted in thecabin of the automobile and equipped with photosensors to detectincident glare and ambient light). Alternately, if both the planoelement and the multiradius element comprise an electro-optic elementsuch as an electrochromic mirror element capable of electricallydimmable reflectivity, the plano element can dim independently of themultiradius element (such as is disclosed in U.S. Pat. No. 5,550,677,the entire disclosure of which is hereby incorporated by referenceherein). If either or both of the elements comprise an electrochromicelement, preferably, the electrochromic reflective element comprises afront substrate and a rear substrate with an electrochromic mediumdisposed between, such as a solid polymer matrix electrochromic mediumsuch as is disclosed in U.S. patent application Ser. No. 09/350,930,filed Jul. 12, 1999, en titled “ELECTROCHROMIC POLYMERIC SOLID FILMS,MANUFACTURING ELECTROCHROMIC DEVICES USING SUCH FILMS, AND PROCESSES FORMAKING SUCH SOLID FILMS AND DEVICES” to Desaraju V. Varaprasad et al.,now U.S. Pat. No. 6,154,306, or such as is disclosed in U.S. Pat. Nos.5,668,663; 5,724,187; 5,910,854; and 5,239,405, the entire disclosuresof which are hereby incorporated by reference herein. Also, although itis preferable to utilize a multiradius or compound curvature reflectiveelement such as an aspherical element or a compound curvature elementfor the auxiliary mirror element adjacent the plano reflective element(as this enables least discontinuity in image at the joint between theadjacent elements of the assembly), a spherical reflective element (thathas substantially only one radius of curvature and, as such, is asection from a sphere) can optionally be used adjacent the planoreflective element instead of, or in addition to, the multiradiusreflective element.

In accordance with what is disclosed in U.S. Pat. No. 7,626,749 (aboveincorporated herein by reference in its entirety), the mirror reflectiveelement may include a wide angle or auxiliary mirror or reflector at aperimeter region or corner region of the reflective element to provide arearward wide angle view to the driver of the vehicle. The wide anglereflector may be established at the reflective element and behind thefourth surface of the reflective element, such as by utilizing aspectsof the reflective elements described in U.S. Pat. No. 6,315,419 and/orU.S. pat. publications, Pub. No. US 2002/0105741, published Aug. 8,2002; and/or US 2003/0117731, published Jun. 26, 2003; and/orInternational Pub. No. WO 01/81956, published Nov. 1, 2001, which areall hereby incorporated herein by reference in their entireties. Thewide angle reflector may be positioned at a perimeter region of thereflective element so as to provide a wide angle viewing area forviewing the blind spot area at the side and rearward of the vehicle,while the primary or central region of the reflective element provides agenerally planar reflective surface for viewing rearward and sideward ofthe vehicle mirror. The reflective element includes a perimeter bandaround the perimeter of the reflective element and a perimeter bandportion inboard of a wide angle area or region at the reflective elementand around an inboard perimeter region of the wide angle reflector. Theperimeter band thus separates and/or demarcates the wide anglereflective portion from the generally planar reflective portion of thereflective element, and may conceal or hide the edges of the wide anglereflector. The perimeter band is disposed on the second surface of thefront substrate and generally at or along the perimeter seal of thereflective element, while the perimeter band portion is disposed on thesecond surface and inboard of the seal to generally outline/demarcate aninner perimeter of the wide angle reflector. The perimeter band portionmay have generally the same width as the perimeter band, or may have areduced width or narrow width to reduce the effect on the viewing areaof the reflective element. Wide angle reflector is positioned at therear (or fourth) surface of the rear substrate and may be adhered to therear surface and generally behind the wide angle area defined by theperimeter band and the perimeter band portion.

In accordance with what is disclosed in PCT International Publication WO01/81956 A1 (above incorporated herein by reference in its entirety),the auxiliary wide angle mirror portion may be disposed at the secondsurface of the front substrate of an exterior electrochromic mirrorreflective element, and with the electrochromic medium containingelectrochromic-active material contacting the auxiliary wide anglemirror portion and disposed between the auxiliary wide angle mirrorportion/second surface and a reflector coated rear substrate of theexterior electrochromic mirror reflective element.

Therefore, the mirror reflector or reflective element or transflectiveelectro-optic mirror element of the present invention has an auxiliarywide angle mirror reflector portion established integrally into the rearsubstrate. The auxiliary mirror reflector portion may be formed orestablished via grinding a portion of the rear surface of the rearsubstrate and coating the ground area. The rear surface reflectorcoating may be established or disposed substantially only at the groundarea or curved recess, or may be established or disposed substantiallyover the entire rear surface of the rear substrate (particularly forapplications of the integrally formed wide angle auxiliary mirrorreflector portion in fourth surface reflector mirror elements, asdiscussed below).

Optionally, the integrally formed auxiliary wide angle mirror reflectorportion of the present invention may be integrally formed at a rearsurface of a fourth surface reflecting electro-optic mirror reflectiveelement, whereby the rear surface mirror reflector disposed at theauxiliary wide angle mirror reflector portion may be established ordisposed over substantially the entire rear surface of the rearsubstrate, with the front surface of the rear substrate having only thetransparent conductor layer established thereat. Optionally, theintegrally formed auxiliary wide angle mirror reflector portion of thepresent invention may be integrally formed at a rear surface ofnon-electro-optic or non-electrochromic reflective element, such as asingle substrate mirror reflective element. In such an embodiment, thesingle substrate may have a mirror reflector or coating established ordisposed at its rear surface and at the integrally formed recess of thewide angle mirror reflector portion, such that the rear surfacereflector of the mirror reflective element is established over theentire rear surface to form the principal reflector portion of themirror element and the auxiliary wide angle reflector portion of themirror element. The single substrate may comprise a generally flat orplanar substrate or a slightly curved substrate or a prismatic elementor substrate, while remaining within the spirit and scope of the presentinvention.

Optionally, and as shown in FIGS. 6 and 7, a mirror reflector 112 maycomprise an electro-optic reflective element (but could comprise anon-electro-optic reflective element) having a front substrate 122, arear substrate 124 and an electro-optic medium 126 (such as a solidpolymer matrix electrochromic medium or the like) sandwichedtherebetween and sealed via a perimeter seal 128. The electrochromicreflective element 112 includes the electrochromic medium 126 sandwichedbetween the front and rear substrates and at a principal reflectingregion 118 of the reflective element 112. In the illustrated embodiment,the rear substrate 124 is cut away or formed to accommodate the wideangle element 120 at a cut-away region 121 (such as in a similar manneras described in U.S. provisional applications, Ser. No. 61/050,810,filed May 6, 2008; and/or Ser. No. 61/050,853, filed May 6, 2008, whichare hereby incorporated herein by reference in their entireties) so thatthe wide angle element 120 is established at the rear surface 122 a ofthe front substrate 122 and at the cut-away region 121 and at a wideangle reflector region 122 b of front substrate 122. Thus, the wideangle element may be established at a cutaway region and rearward of thefront substrate and adjacent to the electrochromic medium and rearsubstrate, such that the mirror reflector assembly does not provide adimming function at the wide angle reflecting region.

In the illustrated embodiment, front substrate 122 has a transparentconductor coating 130 (such as an indium tin oxide (ITO) coating orlayer) disposed at its rear surface 122 a, while rear substrate 124 hasa mirror reflector or coating 132 (such as a non-dichroic transflector,such as an ITO/Ag/ITO stack of layers or coatings or the like, which mayinclude a transparent conductor layer such as an ITO or F-doped orAs-doped tin oxide layer or the like) disposed at its front surface 124a. The mirror reflector 112 thus comprises a third surface electro-opticmirror element (such as an electrochromic mirror element) at theprincipal reflecting region of the reflector that is bounded by the seal128. The front and rear substrates 122, 124 may comprise generallyplanar mirror substrates or may have a slight radius of curvature toprovide a wider angle field of view across the principal reflectorportion 118 depending on the particular application of the mirrorreflective element and exterior rearview mirror assembly.

As shown in FIG. 6, front substrate 122 has the curved auxiliary wideangle mirror reflector portion 120 integrally formed therewith. In theillustrated embodiment, the auxiliary wide angle mirror reflectorportion 120 or spotter element comprises a curved (such as convex orspherical or aspherical) formation or depression or recess 122 c formedor established (such as via grinding of the rear surface of the glasssubstrate or other suitable physical material removal means) at the rearsurface 122 a of front substrate 122. The curved recess 122 c isintegrally formed as part of the front substrate and is formed at a rearsurface location that is at the cut-away region 121 of the mirrorreflective element assembly. The mirror reflector or reflective coating120 a (such as a metallic reflector coating, such as aluminum or silveror chromium or alloys thereof or the like, and optionally may be similarin materials and/or reflectance to the minor reflector 132 at frontsurface 124 a of rear substrate 124, but other coatings could beutilized at the wide angle reflector depression 122 c at rear surface122 a of front substrate 122) is disposed or established (such as viasputter deposition or chemical deposition or other establishing means)at the rear or second surface 122 a of rear substrate 122 and at leastat encompassing the curved recess 122 c to form the curved spotter orauxiliary wide angle mirror reflector portion 120. Optionally, such asif the reflector coating 120 a is environmentally fragile or non-robust,a sealing or protective layer (not shown), such as a lacquer or paint orink or the like, may be established over the reflector coating tosubstantially seal the reflector coating and/or to protect the reflectorcoating.

Thus, when forming the front substrate 122 and the mirror reflector orreflective element assembly 112, the rear surface 122 a of frontsubstrate 122 may be coated with the transparent conductor coating 130(such as across its entire or substantially its entire rear surface),and the rear surface of the extended portion or wide angle region 122 bof front substrate 122 may be ground or physically ablated to establishthe recess or depression 122 c at the rear surface 122 a of frontsubstrate 122 (such as by first physically removing the transparentconductor coating 130 at the wide angle region of the front substrateand then physically removing a portion of the substrate to establish therecess or depression at the rear surface of the front substrate). Therecess or depression 122 c may then be coated with the mirror reflectoror coating 120 a to establish the wide angle reflector 120 at theoverhang region or cut-away region or wide angle reflector region 121 ofthe mirror reflector 112. Optionally, the wide angle element may utilizeaspects of the Platzer-type auxiliary mirrors that follow the teachingof PCT International Publication WO 01/81956 A1 to George E. Platzer Jr.entitled “Compound Automotive Rearview Mirror”, the entire disclosure ofwhich is hereby incorporated by reference herein.

Optionally, the front substrate may include a perimeter band and/ordemarcating band and/or hiding layer that traverses the front substrateat the wide angle reflecting region to demarcate the wide anglereflecting region from the generally planar or principal reflectingregion and optionally to generally circumscribe at least a portion ofthe wide angle reflector, such as by utilizing aspects of the mirrorassemblies described in U.S. Pat. Nos. 7,274,501; 7,184,190; 7,255,451;and/or U.S. patent application Ser. No. 11/226,628, filed Sep. 14, 2005and published Mar. 23, 2006 as U.S. Publication No. US-2006-0061008;and/or Ser. No. 11/912,576, filed Oct. 25, 2007, now U.S. Pat. No.7,626,749; and/or U.S. provisional applications, Ser. No. 61/050,853,filed May 6, 2008; and/or Ser. No. 61/050,810, filed May 6, 2008, whichare hereby incorporated herein by reference in their entireties. Thehiding layer thus may mask or hide from direct view of the driver theseal and/or other components or elements of the mirror reflectorassembly construction that are to the rear of the front substrate and inthe area of the bordering or hiding layer or element. The hiding layerthus serves as a demarcation element and a hiding or occluding elementfor the wide angle mirror reflector established at the rear of the glasssubstrate at the wide angle reflecting region of the mirror reflectorassembly. The hiding layer or demarcation element may demarcate ordelineate or distinguish or frame the wide angle reflector from thegenerally planar principal reflecting region of the reflective elementto enhance the discernibility of the wide angle reflector at the wideangle reflecting region of the mirror reflector assembly, while hidingthe perimeter seal of the electro-optic mirror reflector assembly.

Optionally, and as shown in FIG. 8, a non-electro-optic mirror element212 may include a generally planar substrate 222 with a wide anglereflector 220 established at a rear surface 222 a of substrate 222.Substrate 222 has the curved auxiliary wide angle mirror reflectorportion 220 integrally formed therewith. In the illustrated embodiment,the auxiliary wide angle mirror reflector portion 220 or spotter elementcomprises a curved (such as convex or spherical or aspherical) formationor depression or recess 222 c formed or established (such as viagrinding of the rear surface of the glass substrate or other suitablephysical material removal means) at the rear surface 222 a of substrate222.

The rear surface 222 a of substrate 222 is coated with a reflectorcoating 234, such as a transflective reflector coating that is partiallylight transmissive. The wide angle reflector coating 220 a and theprincipal reflecting coating 234 may comprise the same material (wherethe substrate may be formed and the depression or recess 222 c may beestablished at the rear surface of the substrate prior to the coatingprocess, which may coat the entire rear surface of the substrate) or maybe different materials (or applied in different processes), such as forapplications where the substrate is coated with the transflectivereflector 234 before the depression or recess 222 c is established (byremoving the reflector coating and a portion of the substrate), and thenthe recess 222 c is coated with the wide angle reflector coating. In theillustrated embodiment, a display element 238 is disposed to the rear ofthe substrate 222 and behind the transflective coating 234, wherebydisplay information or illumination emitted by the display element 238is viewable through the transflective coating and the substrate by aperson viewing the front surface of the substrate, while the presence ofthe display element to the rear of the substrate is rendered covert bythe transflective coating when the display element is not activated.Optionally, if a transflective reflector coating is disposed at therecess or depression 222 c, it is envisioned that a display element orillumination element or the like may be disposed to the rear of the wideangle reflector 220 so as to be viewable, when activated, through thesubstrate by a person viewing the front surface of the substrate, whilebeing substantially covert when deactivated.

Therefore, the present invention provides a mirror reflective elementwith an integrally formed auxiliary wide angle mirror reflector portionand a method of making such a mirror reflective element. For example,the mirror substrate may cut to the desired shape or form, and the rearsurface of the substrate may be ground or otherwise processed to formthe desired curvature of the recess (such as a spherical or asphericalcurvature). The recess may be formed before or after the front surfaceof the mirror substrate is coated with the transparent conductor and/orthe metallic reflector (with the window established thereat, such as viamasking during sputter deposition of the metallic reflector or such asvia laser ablation of the metallic reflector coating at the window areaor the like). The front surface and/or rear surface of the mirrorsubstrate may be coated with the reflector coatings (and optionally, thesurfaces may be coated via a two-side sputter deposition process, suchas by utilizing aspects described in U.S. patent application Ser. No.11/021,065, filed Dec. 23, 2004, now U.S. Pat. No. 7,255,451, which ishereby incorporated herein by reference in its entirety) to establishthe desired reflector portions of the mirror reflective element. Therear substrate may be assembled to the front substrate (with theelectro-optic medium disposed and sealed therebetween) to assemble themirror reflective element. Optionally, the rear surface of the rearsubstrate may be ground and/or coated to establish the auxiliary wideangle reflector portion after the mirror reflective element isassembled.

Optionally, conductive electrode coated glass substrates arecommercially available from various sources. For example, tinoxide-coated glass substrates, known as “TEC-Glass” products, may beobtained from Libbey-Owens-Ford Co., LOF Glass Division, Toledo, Ohio,and such as described in U.S. Pat. No. 7,004,592, which is herebyincorporated herein by reference in its entirety. Such “TEC-Glass”products are manufactured by an on-line chemical vapor depositionprocess that pyrolytically deposits onto clear float glass a multi-layerthin film structure, which includes a microscopically thin coating offluorine-doped tin oxide (having a fine grain uniform structure) withadditional undercoating thin film layers disposed between thefluorine-doped tin oxide layer and the underlying glass substrate. The“TEC-Glass” substrates may be available in different thicknesses, suchas 2 thick or 3 mm thick glass substrates and/or the like.

Optionally, the mirror assembly and/or mirror reflective elementassembly or sub-assembly may include a back plate that includes aperimeter framing portion or bezel portion that extends around theperimeter edges of the reflective element to support the reflectiveelement and frame the reflective element at the mirror assembly (such asby utilizing aspects of the mirror assemblies described in U.S. patentapplication Ser. No. 11/520,193, filed Sep. 13, 2006, now U.S. Pat. No.7,581,859, which is hereby incorporated herein by reference in itsentirety). The perimeter bezel portion may be narrow or small dependingon the particular application of the reflective element and mirrorreflector sub-assembly. Optionally, the mirror reflector sub-assemblymay comprise a bezelless or frameless reflective element (such as thetypes described in U.S. Pat. No. 7,184,190; and/or U.S. patentapplication Ser. No. 11/226,628, filed Sep. 14, 2005 and published Mar.23, 2006 as U.S. Publication No. US-2006-0061008; and/or Ser. No.11/021,065, filed Dec. 23, 2004, now U.S. Pat. No. 7,255,451, and/or PCTApplication No. PCT/US2006/018567, filed May 15, 2006 by Donnelly Corp.et al., which are hereby incorporated herein by reference in theirentireties), whereby the back plate may not include a perimeter framingportion or bezel portion around the perimeter of the reflective element.

Optionally, the mirror assembly may include a heater pad or element atthe rear surface of the glass substrate to provide an anti-fogging ofde-fogging feature to the exterior mirror assembly (such as by utilizingaspects of the heater elements or pads described in U.S. patentapplication Ser. No. 11/334,139, filed Jan. 18, 2006 by Byers et al. forMIRROR ASSEMBLY WITH HEATER ELEMENT, now U.S. Pat. No. 7,400,435; and/orU.S. provisional applications, Ser. No. 60/853,850, filed Oct. 24, 2006;Ser. No. 60/918,089, filed Mar. 15, 2007; and/or Ser. No. 60/970,687,filed Sep. 7, 2007; and/or PCT Application No, PCT/US07/82099, filedOct. 22, 2007, which are hereby incorporated herein by reference intheir entireties). The back plate and/or heater pad may include suitableelectrical connectors and connections incorporated therein (such as byutilizing aspects of the mirror assembly described in U.S. patentapplication Ser. No. 11/334,139, filed Jan. 18, 2006 by Byers et al. forMIRROR ASSEMBLY WITH HEATER ELEMENT, now U.S. Pat. No. 7,400,435, whichis hereby incorporated herein by reference in its entirety) forelectrically connecting the heater pad and/or display element (or othersuitable electrical connectors may be utilized, such as electrical leadsor wire harnesses or pigtails or other separate connectors or cables orthe like). The heater pad may conform to the rear surface of the rearsubstrate and thus may provide heating to the auxiliary wide anglemirror reflector portion, and thus may provide substantially uniformheating of the mirror reflective element over substantially the entirereflecting area of the mirror reflective element, including theintegrally formed auxiliary wide angle mirror reflector portion.

As disclosed in U.S. patent application Ser. No. 11/334,139, filed Jan.18, 2006 by Byers et al. for MIRROR ASSEMBLY WITH HEATER ELEMENT, nowU.S. Pat. No. 7,400,435, a heating element or heater pad may comprise aflexible substrate, such as a thin, flexible polymeric element, such asa few thousandths of an inch (mils) thick sheet (such as a thickness ofone to fifty mils or greater) of polyester or similar polymericmaterial, such as Mylar™, commercially available from DuPont, or thelike, with a plurality of heater conductive traces disposed thereon. Theconductive traces may comprise a pair of electrically isolated tracesfor the heater function of the heater pad and may comprise a silver fitor the like screened onto a back surface of the flexible substrate, witheach trace terminating at or connecting to a respective electricalconnector or tab or terminal (such as via metallic pins or postsprotruding through the polymeric substrate and between the respectivetraces and terminals). The conductive traces (such as a silver frit orsilver containing or metal containing or graphite containing conductivematerial, such as a conductive epoxy or paste or layer or ink or thelike) may be disposed on the attaching or first surface of the substrate(the surface that faces/attaches to the rear surface of the reflectiveelement). The heater pad may be similar to known heater pads, and mayutilize aspects described in U.S. Pat. No. 4,882,466. The heater pad mayinclude an adhesive layer, such as a pressure sensitive adhesive (PSA),on its first surface for adhering the heater pad to the rear of thereflective element (typically, the pressure sensitive adhesive iscovered by a peel away backing, whereby the backing is peeled from thepolymeric substrate to expose the adhesive and the heater pad is thenlaid on or pressed against the rear surface of the reflective element toadhere thereto). The heater pad substrate may also include an adhesivelayer (such as double sided tape or a pressure sensitive adhesive or thelike) on its second surface, whereby a cover or film may be removed fromthe surface to expose the adhesive/tape when attaching a back plate tothe heater pad and reflective element. Conductive traces may be disposedover substantially the entire heater pad substrate, except in theregions where the electrical connectors are located. The conductivetraces generate heat when a current is applied to them via electricalconnectors or tabs (such as via electrical connection to a power sourceor wiring harness of the mirror assembly).

As disclosed in U.S. patent application Ser. No. 11/334,139, conductivetraces may terminate in a respective flexible flap, which may overlay arespective bus-bar coating or portion at the rear surface of thereflective element or which may fold or bend at least partially aroundthe respective edge portion of the glass substrate to contact an edgecoating or solder at the respective edge portion. A conductive epoxy maybe applied to the connection area to ensure a good electrical connectionbetween the traces and the respective conductive coatings/solders/layersat the reflective element.

Optionally, and as disclosed in U.S. patent application Ser. No.11/334,139, a connecting strip for electrically connecting orestablishing conductive continuity between the heater pad or sheet andthe wiring harness or circuitry of the mirror assembly may comprise asingle strip with four conductive traces thereon, such that a singleconnection may be made to the mirror assembly. The strip is a flexibleribbon or strip that may be readily flexed or bent to connect to aconnector at the mirror assembly or at the end of a wiring harness orribbon of the mirror assembly. Optionally, the heater pad or sheet mayinclude two or more connector strips, where one strip may include theconductive traces for the heater traces, while the other strip mayinclude the conductive traces for the reflective element traces. Thestrips may then be flexed or bent to connect to the correspondingconnectors at the mirror assembly.

The heater pad or sheet disclosed in U.S. patent application Ser. No.11/334,139 thus provides a flexible heater pad with the conductivetraces and connectors integrally formed thereon, whereby attachment andelectrical connection of the heater pad or sheet to the reflectiveelement is made via adhering the heater pad or sheet to the rear surfaceof the reflective element. The heating elements or traces and the cellpowering elements or traces are provided on the heater pad or substrateand are separate from and isolated from and not contiguous with oneanother. Each of the traces terminates at an electrical connector orterminal or pin at the rear surface of the heater pad for connecting torespective connectors or terminals of a wiring harness or the like atthe mirror assembly. The electrical connection of the heater pad andreflective element assembly may thus be made to a wiring harness orelectrical connector or connectors at the mirror assembly via one ormore electrical connections.

As stated above, the reflective element of the rearview mirror assemblymay comprise an electro-optic or electrochromic reflective element orcell, such as an electrochromic mirror assembly and electrochromicreflective element utilizing principles disclosed in commonly assignedU.S. Pat. Nos. 7,195,381; 6,690,268; 5,140,455; 5,151,816; 6,178,034;6,154,306; 6,002,544; 5,567,360; 5,525,264; 5,610,756; 5,406,414;5,253,109; 5,076,673; 5,073,012; 5,117,346; 5,724,187; 5,668,663;5,910,854; 5,142,407; and/or 4,712,879, and/or U.S. patent applicationSer. No. 11/021,065, filed Dec. 23, 2004, now U.S. Pat. No. 7,255,451;and/or Ser. No. 11/226,628, filed Sep. 14, 2005 and published Mar. 23,2006 as U.S. Publication No. US-2006-0061008; and/or PCT Application No.PCT/US2006/018567, filed May 15, 2006 and published Nov. 23, 2006 asInternational Publication No. WO 2006/124682, and/or European PatentApplication No. EP0728618, filed Dec. 8, 1995 and published Aug. 28,1996; and/or European Patent Application EP0729864, filed Dec. 11, 1995and published Sep. 4, 1996; and/or Australian Patent ApplicationAU4031795, filed Dec. 11, 1995 and published Feb. 8, 1996, and/orAustralian Patent Application AU4031895, filed Dec. 11, 1995 andpublished Aug. 29, 1996, which are all hereby incorporated herein byreference in their entireties, and/or as disclosed in the followingpublications: N. R. Lynam, “Electrochromic Automotive Day/NightMirrors”, SAE Technical Paper Series 870636 (1987); N. R. Lynam, “SmartWindows for Automobiles”, SAE Technical Paper Series 900419 (1990); N.R. Lynam and A. Agrawal, “Automotive Applications of ChromogenicMaterials”, Large Area Chromogenics: Materials and Devices forTransmittance Control, C. M. Lampert and C. G. Granquist, EDS., OpticalEngineering Press, Wash. (1990), which are hereby incorporated byreference herein in their entireties. The thicknesses and materials ofthe coatings on the substrates of the electrochromic reflective element,such as on the third surface of the reflective element assembly, may beselected to provide a desired color or tint to the mirror reflectiveelement, such as a blue colored reflector, such as is known in the artand/or such as described in U.S. Pat. Nos. 7,274,501; 5,910,854 and6,420,036, and in PCT Application No. PCT/US03/29776, filed Sep. 9, 2003by Donnelly Corp. et al. for MIRROR REFLECTIVE ELEMENT ASSEMBLY, whichare all hereby incorporated herein by reference in their entireties.

Optionally, use of an elemental semiconductor mirror, such as a siliconmetal mirror, such as disclosed in U.S. Pat. Nos. 6,286,965; 6,196,688;5,535,056; 5,751,489; and 6,065,840, and/or in U.S. patent applicationSer. No. 10/993,302, filed Nov. 19, 2004 by Lynam for MIRROR REFLECTIVEELEMENT FOR A VEHICLE, now U.S. Pat. No. 7,338,177, which are all herebyincorporated herein by reference in their entireties, can beadvantageous because such elemental semiconductor mirrors (such as canbe formed by depositing a thin film of silicon) can be greater than 50percent reflecting in the photopic (SAE J964a measured), while beingalso substantially transmitting of light (up to 20 percent or evenmore). Such silicon mirrors also have the advantage of being able to bedeposited onto a flat glass substrate and to be bent into a curved (suchas a convex or aspheric) curvature, which is also advantageous sincemany passenger-side exterior rearview mirrors are bent or curved.

Optionally, the reflective element may include a perimeter metallicband, such as the types described in U.S. Pat. No. 7,184,190; and/or PCTApplication No. PCT/US03/29776, filed Sep. 19, 2003 by Donnelly Corp. etal. for ELECTROCHROMIC MIRROR ASSEMBLY; and/or PCT Application No.PCT/US03/35381, filed Nov. 5, 2003 by Donnelly Corp. et al. forELECTRO-OPTIC REFLECTIVE ELEMENT ASSEMBLY; and/or U.S. patentapplication Ser. No. 11/021,065, filed Dec. 23, 2004 by McCabe et al.for ELECTRO-OPTIC MIRROR CELL, now U.S. Pat. No. 7,255,451; Ser. No.11/226,628, filed Sep. 14, 2005 and published Mar. 23, 2006 as U.S.Publication No. US-2006-0061008, which are all hereby incorporatedherein by reference in their entireties. Optionally, the reflectiveelement may include indicia formed at and viewable at the reflectiveelement, such as by utilizing aspects of the reflective elementsdescribed in PCT Application No. PCT/US2006/018567, filed May 15, 2006;and U.S. provisional applications, Ser. No. 60/681,250, filed May 16,2005; Ser. No. 60/690,400, filed Jun. 14, 2005; Ser. No. 60/695,149,filed Jun. 29, 2005; Ser. No. 60/730,334, filed Oct. 26, 2005; Ser. No.60/750,199, filed Dec. 14, 2005; Ser. No, 60/774,449, filed Feb. 17,2006; and Ser. No. 60/783,496, filed Mar. 18, 2006, which are all herebyincorporated herein by reference in their entireties.

Optionally, the reflective element may comprise a single substrate witha reflective coating at its rear surface. The mirror assembly thus maycomprise a prismatic mirror assembly or planar or non-planar mirror orother mirror having a single substrate reflective element, such as amirror assembly utilizing aspects of the mirror assemblies described inU.S. Pat. Nos. 6,318,870; 6,598,980; 5,327,288; 4,948,242; 4,826,289;4,436,371; and 4,435,042; and PCT Application No. PCT/US04/015424, filedMay 18, 2004 by Donnelly Corporation et al. for MIRROR ASSEMBLY FORVEHICLE; and U.S. patent application Ser. No. 10/933,842, filed Sep. 3,2004, now U.S. Pat. No. 7,249,860, which are hereby incorporated hereinby reference in their entireties. Optionally, the reflective element maycomprise a conventional prismatic or flat reflective element or prism,or may comprise a prismatic or flat reflective element of the typesdescribed in PCT Application No. PCT/US03/29776, filed Sep. 19, 2003 byDonnelly Corp. et al. for MIRROR REFLECTIVE ELEMENT ASSEMBLY; U.S.patent application Ser. No. 10/709,434, filed May 5, 2004 by Lynam forMIRROR REFLECTIVE ELEMENT, now U.S. Pat. No. 7,420,756; Ser. No.10/933,842, filed Sep. 3, 2004 by Kulas et al. for INTERIOR REARVIEWMIRROR ASSEMBLY, now U.S. Pat. No. 7,249,860; Ser. No. 11/021,065, filedDec. 23, 2004 by McCabe et al. for ELECTRO-OPTIC MIRROR CELL, now U.S.Pat. No. 7,255,451; and/or Ser. No. 10/993,302, filed Nov. 19, 2004 byLynam for MIRROR REFLECTIVE ELEMENT FOR A VEHICLE, now U.S. Pat. No.7,338,177, and/or PCT Application No. PCT/US2004/015424, filed May 18,2004 by Donnelly Corp. et al. for MIRROR ASSEMBLY FOR VEHICLE, which areall hereby incorporated herein by reference in their entireties.

Optionally, the mirror assembly may include one or more displays, suchas the types disclosed in U.S. Pat. Nos. 5,530,240 and/or 6,329,925,which are hereby incorporated herein by reference in their entireties,and/or display-on-demand or transflective type displays, such as thetypes disclosed in U.S. Pat. Nos. 7,184,190; 7,195,381; 6,690,268;5,668,663 and/or 5,724,187, and/or in U.S. patent application Ser. No.10/528,269, filed Mar. 17, 2005, now U.S. Pat. No. 7,274,501; Ser. No.10/538,724, filed Jun. 13, 2005 and published Mar. 9, 2006 as U.S.Publication No. US-2006-0050018; Ser. No. 11/284,543, filed Nov. 22,2005, now U.S. Pat. No. 7,370,983; and/or Ser. No. 11/021,065, filedDec. 23, 2004 by McCabe et al. for ELECTRO-OPTIC MIRROR CELL, now U.S.Pat. No. 7,255,451; and/or PCT Application No. PCT/US03/29776, filedSep. 9, 2003 by Donnelly Corp. et al. for MIRROR REFLECTIVE ELEMENTASSEMBLY; and/or PCT Application No. PCT/US03/35381, filed Nov. 5, 2003by Donnelly Corp. et al. for ELECTRO-OPTIC REFLECTIVE ELEMENT ASSEMBLY;and/or PCT Application No. PCT/US03/40611, filed Dec. 19, 2003 byDonnelly Corp. et al. for ACCESSORY SYSTEM FOR VEHICLE, which are allhereby incorporated herein by reference in their entireties, or mayinclude or incorporate video displays or the like, such as the typesdescribed in PCT Application No. PCT/US03/40611, filed Dec. 19, 2003 byDonnelly Corp. et for ACCESSORY SYSTEM FOR VEHICLE, and/or U.S. patentapplication Ser. No. 10/538,724, filed Jun. 13, 2005 and published Mar.9, 2006 as U.S. Publication No. US-2006-0050018; and/or Ser. No.11/284,543, filed Nov. 22, 2005, now U.S. Pat. No. 7,370,983; and/orU.S. provisional applications, Ser. No. 60/630,061, filed Nov. 22, 2004by Lynam et al. for MIRROR ASSEMBLY WITH VIDEO DISPLAY; and Ser. No.60/667,048, filed Mar. 31, 2005 by Lynam et al. for MIRROR ASSEMBLY WITHVIDEO DISPLAY, which are hereby incorporated herein by reference intheir entireties.

Optionally, the mirror reflective element may comprise a transflectivedisplay on demand reflective element that is partially transmissive andpartially reflective, so that the light emanating from the displayelement may be transmitted through the reflective element when anillumination source is activated, but the display is substantiallynon-visible or viewable when the illumination source is deactivated.Optionally, the mirror reflective element may comprise a singlesubstrate or non-electro-optic reflective element, with the auxiliarywide angle reflector portion being integrally formed or established at arear surface of the reflective element, while remaining within thespirit and scope of the present invention. For example, the reflectiveelement may utilize aspects of the reflective elements described in U.S.Pat. Nos. 7,184,190; 6,690,268; 5,668,663 and/or 5,724,187, and/or inU.S. patent application Ser. No. 10/993,302, filed Nov. 19, 2004 byLynam for MIRROR REFLECTIVE ELEMENT FOR A VEHICLE, now U.S. Pat. No.7,338,177; Ser. No. 10/528,269, filed Mar. 17, 2005, now U.S. Pat. No.7,274,501; and/or Ser. No. 11/021,065, filed Dec. 23, 2004 by McCabe etal. for ELECTRO-OPTIC MIRROR CELL, now U.S. Pat. No. 7,255,451, whichare all hereby incorporated herein by reference in their entireties.

Optionally, the mirror assembly may include a blind spot indicatorand/or a turn signal indicator, such as an indicator or indicators ofthe types described in U.S. provisional applications, Ser. No.60/853,850, filed Oct. 24, 2006; and/or Ser. No. 60/918,089, filed Mar.15, 2007; and/or Ser. No. 60/970,687, filed Sep. 7, 2007; and/or PCTApplication No. PCT/US07/82099, filed Oct. 22, 2007; and/or U.S. Pat.Nos. 6,198,409; 5,929,786; and 5,786,772, and/or PCT Application No.PCT/US2006/026148, filed Jul. 5, 2006 by Donnelly Corp. et al. forVEHICLE EXTERIOR MIRROR ASSEMBLY WITH BLIND SPOT INDICATOR, which arehereby incorporated herein by reference in their entireties. The signalindicator or indication module may include or utilize aspects of variouslight modules or systems or devices, such as the types described in U.S.Pat. Nos. 6,227,689; 6,582,109; 5,371,659; 5,497,306; 5,669,699;5,823,654; 6,176,602; and/or 6,276,821, and/or U.S. patent applicationSer. No. 11/520,193, filed Sep. 13, 2006, now U.S. Pat. No. 7,581,859,and/or PCT Application No. PCT/US2006/018567, filed May 16, 2006, whichare hereby incorporated herein by reference in their entireties.

Such an indicator or indicators may function as a lane change assist(LCA) indicator or indicators and/or a blind spot indicator orindicators. Such blind spot indicators are typically activated when anobject is detected (via a side object or blind spot detection system orthe like such as described in U.S. Pat. Nos. 7,038,577; 6,882,287;6,198,409; 5,929,786; and 5,786,772, and/or U.S. patent application Ser.No. 11/315,675, filed Dec. 22, 2005 by Higgins-Luthman for OBJECTDETECTION SYSTEM FOR VEHICLE, now U.S. Pat. No. 7,720,580; and/or PCTApplication No. PCT/US2006/026148, filed Jul. 5, 2006 by Donnelly Corp.et al. for VEHICLE EXTERIOR MIRROR ASSEMBLY WITH BLIND SPOT INDICATOR,which are hereby incorporated herein by reference in their entireties)at the side and/or rear of the vehicle (at the blind spot) and when theturn signal is also activated, so as to provide an alert to the driverof the host vehicle that there is an object or vehicle in the lane nextto the host vehicle at a time when the driver of the host vehicleintends to move over into the adjacent lane. Optionally, andalternately, the indicator or indicators may function as a lane changeassist indicator or indicators, where the host vehicle may be detectedto be moving into an adjacent lane without the turn signal beingactivated, and an object or vehicle may be detected at the adjacentlane, whereby the LCA indicator or indicators may be activated toprovide an alert to the driver of the lane change to assist the driverin avoiding unintentional lane changes and/or lane changes when avehicle or object is detected in the adjacent lane.

The blind spot indicators thus may be operable to provide an indicationto the driver of the host vehicle that an object or other vehicle hasbeen detected in the lane or area adjacent to the side of the hostvehicle. The blind spot indicator may be operable in association with ablind spot detection system, which may include an imaging sensor orsensors, or an ultrasonic sensor or sensors, or a sonar sensor orsensors or the like. For example, the blind spot detection system mayutilize aspects of the blind spot detection and/or imaging systemsdescribed in U.S. Pat. Nos. 7,038,577; 6,882,287; 6,198,409; 5,929,786;and/or 5,786,772, and/or U.S. patent application Ser. No. 11/239,980,filed Sep. 30, 2005 by Camilleri et al. for VISION SYSTEM FOR VEHICLE;and/or Ser. No. 11/315,675, filed Dec. 22, 2005 by Higgins-Luthman forOBJECT DETECTION SYSTEM FOR VEHICLE, now U.S. Pat. No. 7,720,580, and/orU.S. provisional applications, Ser. No. 60/638,687, filed Dec. 23, 2004by Higgins-Luthman for OBJECT DETECTION SYSTEM FOR VEHICLE; Ser. No.60/628,709, filed Nov. 17, 2004 by Camilleri et al. for IMAGING ANDDISPLAY SYSTEM FOR VEHICLE; Ser. No. 60/614,644, filed Sep. 30, 2004;and/or Ser. No. 60/618,686, filed Oct. 14, 2004 by Laubinger for VEHICLEIMAGING SYSTEM, and/or of the reverse or backup aid systems, such as therearwardly directed vehicle vision systems described in U.S. Pat. Nos.5,550,677; 5,760,962; 5,670,935; 6,201,642; 6,396,397; 6,498,620;6,717,610 and/or 6,757,109, and/or U.S. patent application Ser. No.10/418,486, filed Apr. 18, 2003 by McMahon et al. for VEHICLE IMAGINGSYSTEM, now U.S. Pat. No. 7,005,974, and/or of the automatic headlampcontrols described in U.S. Pat. Nos. 5,796,094 and/or 5,715,093; and/orU.S. patent application Ser. No. 11/105,757, filed Apr. 14, 2005 bySchofield et al. for IMAGING SYSTEM FOR VEHICLE, now U.S. Pat. No.7,526,103; and/or U.S. provisional application Ser. No. 60/607,963,filed Sep. 8, 2004 by Schofield for IMAGING SYSTEM FOR VEHICLE, and/orof the rain sensors described in U.S. Pat. Nos. 6,250,148 and 6,341,523,and/or of other imaging systems, such as the types described in U.S.Pat. Nos. 6,353,392 and 6,313,454, which may utilize various imagingsensors or imaging array sensors or cameras or the like, such as a CMOSimaging array sensor, a CCD sensor or other sensors or the like, such asthe types disclosed in commonly assigned, U.S. Pat. Nos. 5,550,677;5,760,962; 6,097,023 and 5,796,094, and U.S. patent application Ser. No.09/441,341, filed Nov. 16, 1999 by Schofield et al. for VEHICLEHEADLIGHT CONTROL USING IMAGING SENSOR, now U.S. Pat. No. 7,339,149,and/or PCT Application No. PCT/US2003/036177 filed Nov. 14, 2003,published Jun. 3, 2004 as PCT Publication No. WO 2004/047421 A3, withall of the above referenced U.S. patents, patent applications andprovisional applications and PCT applications being commonly assignedand being hereby incorporated herein by reference in their entireties.

The constructions of the present invention are economical and effectivecompared to the more complicated and potentially more costlyconstructions of other mirror assemblies. For example, no additionalelements or reflectors need be positioned at the front or rear surfaceof the reflective element, since the auxiliary reflector portion isintegrally formed and/or established at the reflective element duringmanufacture of the reflective element.

Changes and modifications to the specifically described embodiments maybe carried out without departing from the principles of the presentinvention, which is intended to be limited only by the scope of theappended claims as interpreted according to the principles of patentlaw.

1. A mirror reflective element suitable for use in an exterior rearviewmirror assembly of a vehicle, said mirror reflective element comprising:a glass substrate having a front surface and a rear surface; a principalreflector portion and an auxiliary wide angle curved portion; whereinsaid principal reflector portion comprises a principal mirror reflectorestablished at said glass substrate; wherein said auxiliary wide anglecurved portion comprises a curved recess established at a region of saidrear surface of said glass substrate by at least one of grinding andablating; wherein said auxiliary wide angle curved portion comprises anauxiliary mirror reflector established at said curved recess; whereinsaid curved recess has a cross-dimension size that is in the range fromabout 30 millimeters to about 80 millimeters; wherein said curved recesscomprises a radius of curvature that is in the range from about 200millimeters to about 1,000 millimeters; and wherein said curved recesshas a maximum recess depth that is in the range from about 0.11millimeters to about 4.04 millimeters.
 2. The mirror reflective elementof claim 1, wherein said auxiliary wide angle curved portion is inboardof a perimeter edge of said mirror reflective element.
 3. The mirrorreflective element of claim 2, wherein said principal reflector portionof said mirror reflective element surrounds said auxiliary wide anglecurved portion of said mirror reflective element.
 4. The mirrorreflective element of claim 2, wherein said curved recess is generallycircular-shaped.
 5. The mirror reflective element of claim 4, whereinsaid curved recess comprises a spherical convex-curved surface.
 6. Themirror reflective element of claim 5, wherein said spherically curvedand generally circular-shaped recess has a maximum recess depth H thatis a function of its radius of curvature R and its cross-dimension sizeD.
 7. The mirror reflective element of claim 6, wherein:H=R−(R̂2−(D/2)̂2)̂0.5
 8. The mirror reflective element of claim 1, whereinsaid auxiliary wide angle curved portion comprises a curved recessestablished at a region of said rear surface of said glass substrate bygrinding.
 9. The mirror reflective element of claim 1, wherein saidprincipal mirror reflector of said principal reflector portion isestablished at said front surface of said glass substrate, and whereinsaid principal mirror reflector of said principal reflector portioncomprises a light-transmitting aperture, and wherein saidlight-transmitting aperture substantially corresponds to said auxiliarywide angle curved portion of said mirror reflective element.
 10. Themirror reflective element of claim 9, wherein said auxiliary wide anglecurved portion comprises a curved recess established at a region of saidrear surface of said glass substrate by grinding.
 11. The mirrorreflective element of claim 10, wherein said principal mirror reflectorof said principal reflector portion comprises at least one of aluminum,silver, chromium, an aluminum alloy, a silver alloy and a chromiumalloy, and wherein said auxiliary mirror reflector of said auxiliarywide angle curved portion comprises at least one of aluminum, silver,chromium, an aluminum alloy, a silver alloy and a chromium alloy. 12.The mirror reflective element of claim 1, wherein said principal mirrorreflector of said principal reflector portion comprises at least one ofaluminum, silver, chromium, an aluminum alloy, a silver alloy and achromium alloy, and wherein said auxiliary mirror reflector of saidauxiliary wide angle curved portion comprises at least another ofaluminum, silver, chromium, an aluminum alloy, a silver alloy and achromium alloy.
 13. The mirror reflective element of claim 1, whereinsaid principal mirror reflector of said principal reflector portioncomprises a principal reflecting coating, and wherein said auxiliarymirror reflector of said auxiliary wide angle curved portion comprises awide angle reflector coating.
 14. The mirror reflective element of claim13, wherein said wide angle reflector coating of said auxiliary mirrorreflector of said auxiliary wide angle curved portion is established atsaid curved recess via sputter deposition.
 15. The mirror reflectiveelement of claim 14, wherein said principal mirror reflector of saidprincipal reflector portion is established at said rear surface of saidglass substrate and wherein said wide angle reflector coating of saidauxiliary mirror reflector of said auxiliary wide angle curved portionand said principal reflecting coating of said principal reflectorportion comprise the same material.
 16. The mirror reflective element ofclaim 13, wherein said principal mirror reflector of said principalreflector portion is established at said rear surface of said glasssubstrate and wherein said wide angle reflector coating of saidauxiliary mirror reflector of said auxiliary wide angle curved portionand said principal reflecting coating of said principal reflectorportion comprise the same material.
 17. The mirror reflective element ofclaim 16, wherein said same material substantially coats the entire rearsurface of said glass substrate.
 18. The mirror reflective element ofclaim 16, wherein said same material comprises chromium.
 19. The mirrorreflective element of claim 16, wherein said glass substrate comprises acurved glass substrate and wherein said mirror reflective elementcomprises a fixed reflectance non-electro-optic mirror reflectiveelement.
 20. The mirror reflective element of claim 1, wherein saidauxiliary wide angle curved portion comprises a curved recessestablished at a region of said rear surface of said glass substrate bygrinding, and wherein said curved recess has a maximum recess depth thatis less than about 2.26 millimeters.
 21. The mirror reflective elementof claim 20, wherein said glass substrate has a thickness between saidfront surface and said rear surface of less than 3 millimeters.
 22. Themirror reflective element of claim 20, wherein said cross-dimension sizeof said curved recess is less than about 60 millimeters.
 23. The mirrorreflective element of claim 22, wherein said curved recess is generallycircular-shaped and comprises a spherical convex-curved surface, andwherein said spherically curved and generally circular-shaped recess hasa maximum recess depth that is a function of its radius of curvature andits cross-dimension size.
 24. The mirror reflective element of claim 1,wherein said curved recess has a maximum recess depth that is less thanabout 2.26 millimeters.
 25. The mirror reflective element of claim 24,wherein said cross-dimension size of said curved recess is less thanabout 60 millimeters.
 26. The mirror reflective element of claim 1,wherein said principal mirror reflector of said principal reflectorportion is established at said rear surface of said glass substrate viasputter deposition.
 27. The mirror reflective element of claim 1,wherein said principal mirror reflector of said principal reflectorportion is established at said rear surface of said glass substrate andwherein said principal mirror reflector of said principal reflectorportion comprises a metallic reflector.
 28. The mirror reflectiveelement of claim 27, wherein said metallic reflector is established atsaid rear surface of said glass substrate via sputter deposition. 29.The mirror reflective element of claim 28, wherein said principal mirrorreflector of said principal reflector portion comprises a principalreflecting coating and wherein said auxiliary mirror reflector of saidauxiliary wide angle curved portion comprises a wide angle reflectorcoating, and wherein said wide angle reflector coating of said auxiliarymirror reflector of said auxiliary wide angle curved portion and saidprincipal reflecting coating of said principal reflector portioncomprise the same material.
 30. The mirror reflective element of claim1, wherein said principal mirror reflector of said principal reflectorportion comprises a principal reflecting coating and wherein saidauxiliary mirror reflector of said auxiliary wide angle curved portioncomprises a wide angle reflector coating, and wherein said wide anglereflector coating of said auxiliary mirror reflector of said auxiliarywide angle curved portion and said principal reflecting coating of saidprincipal reflector portion comprise the same material.
 31. The mirrorreflective element of claim 30, wherein said same material substantiallycoats the entire rear surface of said glass substrate.
 32. The mirrorreflective element of claim 30, wherein said same material compriseschromium.
 33. The mirror reflective element of claim 30, wherein saidglass substrate comprises a curved glass substrate and wherein saidmirror reflective element comprises a fixed reflectancenon-electro-optic mirror reflective element.
 34. The mirror reflectiveelement of claim 1, wherein said auxiliary mirror reflector establishedat said curved recess of said auxiliary wide angle curved portioncomprises a generally convex-shaped reflector having a compoundcurvature convex shape.
 35. The mirror reflective element of claim 1,wherein, when an exterior rearview mirror assembly equipped with saidmirror reflective element is normally mounted at the side of a vehicle,said auxiliary wide angle curved portion is generally disposed at anoutboard region of said mirror reflective element relative to the sideof the vehicle.
 36. A mirror reflective element suitable for use in anexterior rearview mirror assembly of a vehicle, said mirror reflectiveelement comprising: a glass substrate having a front surface and a rearsurface; a principal reflector portion and an auxiliary wide anglecurved portion; wherein said principal reflector portion comprises aprincipal mirror reflector established at said glass substrate; whereinsaid auxiliary wide angle curved portion comprises a curved recessestablished at a region of said rear surface of said glass substrate bygrinding; wherein said curved recess is generally circular-shaped;wherein said auxiliary wide angle curved portion comprises an auxiliarymirror reflector established at said curved recess; wherein saidauxiliary wide angle curved portion is inboard of a perimeter edge ofsaid mirror reflective element, and wherein said principal reflectorportion of said mirror reflective element surrounds said auxiliary wideangle curved portion of said mirror reflective element; wherein saidcurved recess has a cross-dimension size that is less than about 70millimeters; wherein said curved recess comprises a radius of curvaturethat is less than about 800 millimeters; and wherein said curved recesshas a maximum recess depth that is in the range from about 0.11millimeters to about 3.09 millimeters.
 37. The mirror reflective elementof claim 36, wherein said curved recess comprises a sphericalconvex-curved surface and wherein said spherically curved and generallycircular-shaped recess has a maximum recess depth H that is a functionof its radius of curvature R and its cross-dimension size D.
 38. Themirror reflective element of claim 37, wherein:H=R−(R̂2−(D/2)̂2)̂0.5
 39. The mirror reflective element of claim 36,wherein said principal mirror reflector of said principal reflectorportion is established at said front surface of said glass substrate,and wherein said principal mirror reflector of said principal reflectorportion comprises a light-transmitting aperture, and wherein saidlight-transmitting aperture substantially corresponds to said auxiliarywide angle curved portion of said mirror reflective element.
 40. Themirror reflective element of claim 36, wherein said principal mirrorreflector of said principal reflector portion is established at saidrear surface of said glass substrate, and wherein said glass substratehas a thickness between said front surface and said rear surface of lessthan 3 millimeters.
 41. The mirror reflective element of claim 36,wherein said principal mirror reflector of said principal reflectorportion is established at said rear surface of said glass substrate, andwherein said curved recess has a maximum recess depth that is greaterthan about 0.2 millimeters, and wherein said cross-dimension size ofsaid curved recess is greater than 30 millimeters.
 42. The mirrorreflective element of claim 36, wherein said curved recess has a maximumrecess depth that is less than about 2.26 millimeters, and wherein saidcross-dimension size of said curved recess is less than about 60millimeters.
 43. The mirror reflective element of claim 36, wherein aheater pad is disposed at said rear surface of said glass substrate. 44.The mirror reflective element of claim 43, wherein said heater padconforms to said rear surface of said glass substrate.
 45. The mirrorreflective element of claim 44, wherein said heater pad heats thereflecting area of said mirror reflective element, including saidauxiliary wide angle curved portion.
 46. The mirror reflective elementof claim 44, wherein said heater pad provides heating over substantiallythe entire reflecting area of said mirror reflective element, includingsaid auxiliary wide angle curved portion.
 47. The minor reflectiveelement of claim 43, wherein said principal mirror reflector of saidprincipal reflector portion is established at said rear surface of saidglass substrate, and wherein said heater pad provides heating oversubstantially the entire reflecting area of said mirror reflectiveelement, including said auxiliary wide angle curved portion.
 48. Themirror reflective element of claim 43, wherein said principal mirrorreflector of said principal reflector portion is established at saidrear surface of said glass substrate, and wherein said heater pad isfixedly secured by an adhesive at said rear surface of said glasssubstrate at both of (i) said auxiliary wide angle curved portion and(ii) said principal reflector portion.
 49. The mirror reflective elementof claim 43, wherein electrical power for heating the reflecting area ofsaid mirror reflective element, including said auxiliary wide anglecurved portion, is provided via at least one electrically conductivetrace of said heater pad that generates heat when passing an electricalcurrent, and wherein said electrical power is applied via at least oneelectrical connector of said heater pad that is adapted for connectionto a wiring harness of an exterior minor assembly for powering of saidheater pad by a power source of a vehicle equipped with said exteriorminor assembly.
 50. The mirror reflective element of claim 49, whereinsaid heater pad comprises a flexible heater pad and wherein said atleast one electrically conductive trace of said heater pad traverses aflexible strip of said flexible heater pad.
 51. The minor reflectiveelement of claim 40, wherein a heater pad is fixedly secured by anadhesive at said rear surface of said glass substrate at both of (i)said auxiliary wide angle curved portion and (ii) said principalreflector portion.
 52. The mirror reflective element of claim 51,wherein said heater pad heats the reflecting area of said mirrorreflective element, including said auxiliary wide angle curved portion.53. The minor reflective element of claim 52, wherein said heater padconforms to said rear surface of said glass substrate.
 54. A mirrorreflective element suitable for use in an exterior rearview mirrorassembly of a vehicle, said mirror reflective element comprising: aglass substrate having a front surface and a rear surface; a principalreflector portion and an auxiliary wide angle curved portion; whereinsaid principal reflector portion comprises a principal mirror reflectorcomprising a metallic reflector established at said rear surface of saidglass substrate; wherein said auxiliary wide angle curved portioncomprises a curved recess established at a region of said rear surfaceof said glass substrate by at least one of grinding and ablating;wherein said auxiliary wide angle curved portion comprises an auxiliarymirror reflector established at said curved recess; wherein saidauxiliary wide angle curved portion is inboard of a perimeter edge ofsaid mirror reflective element, wherein said curved recess is generallycircular-shaped; wherein said curved recess has a cross-dimension sizethat is less than about 80 millimeters; wherein said curved recesscomprises a radius of curvature that is less than about 1,000millimeters; and wherein said curved recess has a maximum recess depththat is in the range from about 0.11 millimeters to about 4.04millimeters.
 55. The mirror reflective element of claim 54, wherein saidcurved recess comprises a spherical convex-curved surface and whereinsaid spherically curved and generally circular-shaped recess has amaximum recess depth H that is a function of its radius of curvature Rand its cross-dimension size D.
 56. The mirror reflective element ofclaim 55, wherein:H=R−(R̂2−(D/2)̂2)̂0.5
 57. The mirror reflective element of claim 54,wherein said auxiliary wide angle curved portion comprises a curvedrecess established at a region of said rear surface of said glasssubstrate by grinding, and wherein said curved recess has a maximumrecess depth that is less than about 3.09 millimeters, and wherein saidcross-dimension size of said curved recess is in the range from about 30millimeters to about 70 millimeters.
 58. The mirror reflective elementof claim 57, wherein said curved recess has a maximum recess depth thatis less than about 2.26 millimeters, and wherein said cross-dimensionsize of said curved recess is in the range from about 30 millimeters toabout 60 millimeters.
 59. The mirror reflective element of claim 54,wherein said metallic reflector of said principal mirror reflector isestablished at said rear surface of said glass substrate via sputterdeposition.
 60. The mirror reflective element of claim 59, wherein saidcurved recess is established at a region of said rear surface of saidglass substrate by grinding.
 61. The mirror reflective element of claim60, wherein said principal reflector portion of said mirror reflectiveelement surrounds said auxiliary wide angle curved portion of saidmirror reflective element, and wherein said glass substrate has athickness between said front surface and said rear surface of less than3 millimeters.
 62. A mirror reflective element suitable for use in anexterior rearview mirror assembly of a vehicle, said mirror reflectiveelement comprising: a glass substrate having a front surface and a rearsurface; a principal reflector portion and an auxiliary wide anglecurved portion; wherein said principal reflector portion comprises aprincipal mirror reflector established at said front surface of saidglass substrate and wherein said principal mirror reflector comprises ametallic reflector and wherein said principal mirror reflector comprisesa light-transmitting aperture; wherein said auxiliary wide angle curvedportion comprises a curved recess established at a region of said rearsurface of said glass substrate by at least one of grinding andablating; wherein said auxiliary wide angle curved portion comprises anauxiliary mirror reflector established at said curved recess; whereinsaid auxiliary wide angle curved portion is inboard of a perimeter edgeof said mirror reflective element, wherein said light-transmittingaperture substantially corresponds to said auxiliary wide angle curvedportion of said mirror reflective element; wherein said curved recess isgenerally circular-shaped; wherein said curved recess has across-dimension size that is less than about 80 millimeters; whereinsaid curved recess comprises a radius of curvature that is less thanabout 1,000 millimeters; and wherein said curved recess has a maximumrecess depth that is in the range from about 0.11 millimeters to about4.04 millimeters.
 63. The mirror reflective element of claim 62, whereinsaid curved recess comprises a spherical convex-curved surface andwherein said auxiliary wide angle curved portion comprises a curvedrecess established at a region of said rear surface of said glasssubstrate by grinding, and wherein said curved recess has a maximumrecess depth that is less than about 3.09 millimeters, and wherein saidcross-dimension size of said curved recess is in the range from about 30millimeters to about 70 millimeters.
 64. The mirror reflective elementof claim 62, wherein said curved recess has a maximum recess depth thatis less than about 2.26 millimeters, and wherein said cross-dimensionsize of said curved recess is in the range from about 30 millimeters toabout 60 millimeters.
 65. The mirror reflective element of claim 62,wherein said curved recess is established at a region of said rearsurface of said glass substrate by grinding, and wherein said glasssubstrate has a thickness between said front surface and said rearsurface of less than 3 millimeters.
 66. A mirror reflective elementsuitable for use in an exterior rearview mirror assembly of a vehicle,said mirror reflective element comprising: a glass substrate having afront surface and a rear surface; a principal reflector portion and anauxiliary wide angle curved portion; wherein said principal reflectorportion comprises a principal mirror reflector established at said glasssubstrate; wherein said auxiliary wide angle curved portion comprises acurved recess established at a region of said rear surface of said glasssubstrate by at least one of grinding and ablating; wherein saidauxiliary wide angle curved portion comprises an auxiliary mirrorreflector established at said curved recess; wherein said auxiliary wideangle curved portion is inboard of a perimeter edge of said mirrorreflective element, and wherein said principal reflector portion of saidmirror reflective element surrounds said auxiliary wide angle curvedportion of said mirror reflective element; wherein said curved recesshas a cross-dimension size that is less than about 70 millimeters;wherein said curved recess comprises a radius of curvature that is lessthan about 1,000 millimeters; and wherein said curved recess has amaximum recess depth that is in the range from about 0.11 millimeters toabout 3.09 millimeters.
 67. The mirror reflective element of claim 66,wherein said curved recess comprises a spherical convex-curved surface.68. The mirror reflective element of claim 67, wherein said curvedrecess is generally circular-shaped and wherein said spherically curvedand generally circular-shaped recess has a maximum recess depth H thatis a function of its radius of curvature R and its cross-dimension sizeD.
 69. The mirror reflective element of claim 66, wherein said curvedrecess has a maximum recess depth that is less than about 2.26millimeters, and wherein said cross-dimension size of said curved recessis in the range from about 30 millimeters to about 60 millimeters. 70.The mirror reflective element of claim 66, wherein said glass substratehas a thickness between said front surface and said rear surface of lessthan 3 millimeters.
 71. A mirror reflective element suitable for use inan exterior rearview mirror assembly of a vehicle, said mirrorreflective element comprising: a glass substrate having a front surfaceand a rear surface; a principal reflector portion and an auxiliary wideangle curved portion; wherein said principal reflector portion comprisesa principal mirror reflector established at said rear surface of saidglass substrate; wherein said auxiliary wide angle curved portioncomprises a curved recess established at a region of said rear surfaceof said glass substrate by at least one of grinding and ablating;wherein said auxiliary wide angle curved portion comprises an auxiliarymirror reflector established at said curved recess; wherein said curvedrecess has a cross-dimension size that is less than about 80millimeters; wherein said curved recess comprises a radius of curvaturethat is less than about 1,000 millimeters; wherein said curved recesshas a maximum recess depth that is in the range from about 0.11millimeters to about 4.04 millimeters; wherein said principal mirrorreflector of said principal reflector portion comprises a principalreflecting coating and wherein said auxiliary minor reflector of saidauxiliary wide angle curved portion comprises a wide angle reflectorcoating; wherein said wide angle reflector coating of said auxiliarymirror reflector of said auxiliary wide angle curved portion and saidprincipal reflecting coating of said principal reflector portioncomprise the same material; wherein said glass substrate comprises acurved glass substrate; and wherein said mirror reflective elementcomprises a fixed reflectance non-electro-optic mirror reflectiveelement.
 72. The minor reflective element of claim 71, wherein said samematerial substantially coats the entire rear surface of said glasssubstrate.
 73. The mirror reflective element of claim 71, wherein saidauxiliary wide angle curved portion comprises a curved recessestablished at a region of said rear surface of said glass substrate bygrinding, and wherein said curved recess has a maximum recess depth thatis less than about 2.26 millimeters, and wherein said cross-dimensionsize of said curved recess is less than about 60 millimeters, andwherein said glass substrate has a thickness between said front surfaceand said rear surface of less than 3 millimeters.
 74. The mirrorreflective element of claim 73, wherein said same material compriseschromium.
 75. The mirror reflective element of claim 71, wherein aheater pad is disposed at said rear surface of said glass substrate. 76.The mirror reflective element of claim 75, wherein said heater pad heatsthe reflecting area of said mirror reflective element, including saidauxiliary wide angle curved portion.
 77. The mirror reflective elementof claim 76, wherein said heater pad conforms to said rear surface ofsaid glass substrate.
 78. The mirror reflective element of claim 75,wherein said heater pad conforms to said rear surface of said glass, andwherein electrical power for heating the reflecting area of said mirrorreflective element, including said auxiliary wide angle curved portion,is provided via at least one electrically conductive trace of saidheater pad that generates heat when passing an electrical current, andwherein said electrical power is applied via at least one electricalconnector of said heater pad that is adapted for connection to a wiringharness of an exterior mirror assembly for powering of said heater padby a power source of a vehicle equipped with said exterior mirrorassembly.
 79. The mirror reflective element of claim 75, wherein saidheater pad provides heating over substantially the entire reflectingarea of said mirror reflective element, including said auxiliary wideangle curved portion.
 80. The mirror reflective element of claim 79,wherein said heater pad conforms to said rear surface of said glasssubstrate.
 81. The mirror reflective element of claim 79, wherein saidheater pad is fixedly secured by an adhesive at said rear surface ofsaid glass substrate at both of (i) said auxiliary wide angle curvedportion and (ii) said principal reflector portion.
 82. The mirrorreflective element of claim 75, wherein said heater pad is fixedlysecured by an adhesive at said rear surface of said glass substrate at(i) said auxiliary wide angle curved portion and (ii) said principalreflector portion.
 83. The mirror reflective element of claim 82,wherein electrical power for heating the reflecting area of said mirrorreflective element, including said auxiliary wide angle curved portion,is provided via at least one electrically conductive trace of saidheater pad that generates heat when passing an electrical current, andwherein said electrical power is applied via at least one electricalconnector of said heater pad that is adapted for connection to a wiringharness of an exterior mirror assembly for powering of said heater padby a power source of a vehicle equipped with said exterior mirrorassembly.
 84. The mirror reflective element of claim 83, wherein saidheater pad comprises a flexible heater pad and wherein said at least oneelectrically conductive trace of said heater pad traverses a flexiblestrip of said flexible heater pad.
 85. A mirror reflective elementsuitable for use in an exterior rearview mirror assembly of a vehicle,said mirror reflective element comprising: a glass substrate having afront surface and a rear surface; a principal reflector portion and anauxiliary wide angle curved portion; wherein said principal reflectorportion comprises a principal mirror reflector comprising a metallicreflector established at said rear surface of said glass substrate;wherein said auxiliary wide angle curved portion comprises a curvedrecess established at a region of said rear surface of said glasssubstrate by at least one of grinding and ablating; wherein saidauxiliary wide angle curved portion comprises an auxiliary mirrorreflector established at said curved recess; wherein said auxiliary wideangle curved portion is inboard of a perimeter edge of said mirrorreflective element; wherein said curved recess has a cross-dimensionsize that is less than about 80 millimeters; wherein said curved recesscomprises a radius of curvature that is less than about 1,000millimeters; wherein said curved recess has a maximum recess depth thatis in the range from about 0.11 millimeters to about 4.04 millimeters;and wherein a heater pad is disposed at said rear surface of said glasssubstrate and wherein said heater pad is fixedly secured by an adhesiveat said rear surface of said glass substrate at both of (i) saidauxiliary wide angle curved portion and (ii) said principal reflectorportion.
 86. The mirror reflective element of claim 85, wherein saidauxiliary wide angle curved portion comprises a curved recessestablished at a region of said rear surface of said glass substrate bygrinding, and wherein said curved recess has a maximum recess depth thatis less than about 2.26 millimeters and wherein said cross-dimensionsize of said curved recess is less than about 60 millimeters.
 87. Themirror reflective element of claim 86, wherein said heater pad conformsto said rear surface of said glass substrate.
 88. The mirror reflectiveelement of claim 87, wherein said curved recess comprises a sphericalconvex-curved surface and wherein said curved recess is generallycircular-shaped.
 89. The mirror reflective element of claim 88, whereinsaid glass substrate has a thickness between said front surface and saidrear surface of less than 3 millimeters.
 90. The mirror reflectiveelement of claim 88, wherein said heater pad provides heating oversubstantially the entire reflecting area of said mirror reflectiveelement, including said auxiliary wide angle curved portion.
 91. Themirror reflective element of claim 85, wherein said glass substratecomprises a curved glass substrate and wherein said mirror reflectiveelement comprises a fixed reflectance non-electro-optic mirrorreflective element.
 92. The mirror reflective element of claim 91,wherein, when an exterior rearview mirror assembly equipped with saidmirror reflective element is normally mounted at the side of a vehicle,said auxiliary wide angle curved portion is generally disposed at anoutboard region of said mirror reflective element relative to the sideof the vehicle.
 93. The mirror reflective element of claim 92, whereinsaid principal mirror reflector of said principal reflector portioncomprises a principal reflecting coating, and wherein said auxiliarymirror reflector of said auxiliary wide angle curved portion comprises awide angle reflector coating, and wherein said wide angle reflectorcoating of said auxiliary mirror reflector of said auxiliary wide anglecurved portion and said principal reflecting coating of said principalreflector portion comprise the same material, and wherein said samematerial substantially coats the entire rear surface of said glasssubstrate.
 94. The mirror reflective element of claim 85, wherein saidheater pad heats the reflecting area of said mirror reflective element,including said auxiliary wide angle curved portion.
 95. The mirrorreflective element of claim 94, wherein said principal minor reflectorof said principal reflector portion comprises a principal reflectingcoating, and wherein said auxiliary minor reflector of said auxiliarywide angle curved portion comprises a wide angle reflector coating, andwherein said wide angle reflector coating of said auxiliary mirrorreflector of said auxiliary wide angle curved portion and said principalreflecting coating of said principal reflector portion comprise the samematerial.
 96. The minor reflective element of claim 95, wherein saidsame material substantially coats the entire rear surface of said glasssubstrate.
 97. The mirror reflective element of claim 85, wherein saidheater pad provides heating over substantially the entire reflectingarea of said minor reflective element, including said auxiliary wideangle curved portion.
 98. The mirror reflective element of claim 85,wherein said principal mirror reflector of said principal reflectorportion comprises a principal reflecting coating, and wherein saidauxiliary mirror reflector of said auxiliary wide angle curved portioncomprises a wide angle reflector coating, and wherein said wide anglereflector coating of said auxiliary mirror reflector of said auxiliarywide angle curved portion and said principal reflecting coating of saidprincipal reflector portion comprise the same material.
 99. The mirrorreflective element of claim 98, wherein said same material substantiallycoats the entire rear surface of said glass substrate.
 100. A minorreflective element suitable for use in an exterior rearview mirrorassembly of a vehicle, said minor reflective element comprising: a glasssubstrate having a front surface and a rear surface; a principalreflector portion and an auxiliary wide angle curved portion; whereinsaid principal reflector portion comprises a principal mirror reflectorcomprising a metallic reflector established at said rear surface of saidglass substrate; wherein said auxiliary wide angle curved portioncomprises a curved recess established at a region of said rear surfaceof said glass substrate by at least one of grinding and ablating;wherein said auxiliary wide angle curved portion comprises an auxiliarymirror reflector established at said curved recess; wherein said curvedrecess has a cross-dimension size that is less than about 60millimeters; wherein said curved recess comprises a radius of curvaturethat is less than about 800 millimeters; wherein said curved recess hasa maximum recess depth that is in the range from about 0.11 millimetersto about 2.26 millimeters; wherein said principal minor reflector ofsaid principal reflector portion comprises a principal reflectingcoating and wherein said auxiliary mirror reflector of said auxiliarywide angle curved portion comprises a wide angle reflector coating; andwherein said wide angle reflector coating of said auxiliary minorreflector of said auxiliary wide angle curved portion and said principalreflecting coating of said principal reflector portion comprise the samematerial.
 101. The mirror reflective element of claim 100, wherein saidsame material substantially coats the entire rear surface of said glasssubstrate.
 102. The mirror reflective element of claim 100, wherein aheater pad is disposed at said rear surface of said glass substrate andwherein said heater pad heats the reflecting area of said mirrorreflective element, including said auxiliary wide angle curved portion.103. The minor reflective element of claim 102, wherein electrical powerfor heating the reflecting area of said mirror reflective element,including said auxiliary wide angle curved portion, is provided via atleast one electrically conductive trace of said heater pad thatgenerates heat when passing an electrical current.
 104. The mirrorreflective element of claim 103, wherein said electrical power isapplied via at least one electrical connector of said heater pad that isadapted for connection to a wiring harness of an exterior mirrorassembly for powering of said heater pad by a power source of a vehicleequipped with said exterior mirror assembly.
 105. The mirror reflectiveelement of claim 104, wherein said heater pad comprises a flexibleheater pad and wherein said at least one electrically conductive traceof said heater pad traverses a flexible strip of said flexible heaterpad.
 106. The mirror reflective element of claim 105, wherein said atleast one electrically conductive trace of said heater pad traversessaid flexible strip of said flexible heater pad to connect with said atleast one electrical connector.
 107. The mirror reflective element ofclaim 102, wherein said heater pad is fixedly secured by an adhesive atsaid rear surface of said glass substrate at both of (i) said auxiliarywide angle curved portion and (ii) said principal reflector portion.108. The mirror reflective element of claim 107, wherein said glasssubstrate has a thickness between said front surface and said rearsurface of less than 3 millimeters, and wherein said glass substratecomprises a curved glass substrate, and wherein said mirror reflectiveelement comprises a fixed reflectance non-electro-optic mirrorreflective element, and wherein, when an exterior rearview mirrorassembly equipped with said mirror reflective element is normallymounted at the side of a vehicle, said auxiliary wide angle curvedportion is generally disposed at an outboard region of said mirrorreflective element relative to the side of the vehicle, and wherein saidauxiliary wide angle curved portion is inboard of a perimeter edge ofsaid mirror reflective element, and wherein said curved recess isgenerally circular-shaped.
 109. The mirror reflective element of claim100, wherein a heater pad provides heating over substantially the entirereflecting area of said mirror reflective element, including saidauxiliary wide angle curved portion.
 110. A mirror reflective elementsuitable for use in an exterior rearview mirror assembly of a vehicle,said mirror reflective element comprising: a glass substrate having afront surface and a rear surface; a principal reflector portion and anauxiliary wide angle curved portion; wherein said principal reflectorportion comprises a principal mirror reflector established at said rearsurface of said glass substrate; wherein said auxiliary wide anglecurved portion comprises a curved recess established at a region of saidrear surface of said glass substrate by at least one of grinding andablating; wherein said auxiliary wide angle curved portion comprises anauxiliary mirror reflector established at said curved recess; whereinsaid curved recess has a cross-dimension size that is less than about 70millimeters; wherein said curved recess comprises a radius of curvaturethat is less than about 800 millimeters; wherein said curved recess hasa maximum recess depth that is in the range from about 0.11 millimetersto about 3.09 millimeters; wherein said glass substrate comprises acurved glass substrate; wherein said mirror reflective element comprisesa fixed reflectance non-electro-optic mirror reflective element; andwherein a heater pad is disposed at said rear surface of said glasssubstrate.
 111. The mirror reflective element of claim 110, wherein saidauxiliary wide angle curved portion comprises a curved recessestablished at a region of said rear surface of said glass substrate bygrinding, and wherein said curved recess has a maximum recess depth thatis less than about 2.26 millimeters, and wherein said cross-dimensionsize of said curved recess is less than about 60 millimeters, andwherein said glass substrate has a thickness between said front surfaceand said rear surface of less than 3 millimeters.
 112. The mirrorreflective element of claim 111, wherein said heater pad conforms tosaid rear surface of said glass substrate.
 113. The minor reflectiveelement of claim 110, wherein said heater pad conforms to said rearsurface of said glass, and wherein electrical power for heating thereflecting area of said mirror reflective element, including saidauxiliary wide angle curved portion, is provided via at least oneelectrically conductive trace of said heater pad that generates heatwhen passing an electrical current, and wherein said electrical power isapplied via at least one electrical connector of said heater pad that isadapted for connection to a wiring harness of an exterior mirrorassembly for powering of said heater pad by a power source of a vehicleequipped with said exterior mirror assembly.
 114. The minor reflectiveelement of claim 113, wherein said heater pad provides heating oversubstantially the entire reflecting area of said mirror reflectiveelement, including said auxiliary wide angle curved portion.
 115. Theminor reflective element of claim 110, wherein said heater pad heats thereflecting area of said minor reflective element, including saidauxiliary wide angle curved portion.
 116. The mirror reflective elementof claim 115, wherein said heater pad conforms to said rear surface ofsaid glass substrate.
 117. The minor reflective element of claim 116,wherein said heater pad is fixedly secured by an adhesive at said rearsurface of said glass substrate at both of (i) said auxiliary wide anglecurved portion and (ii) said principal reflector portion.
 118. Themirror reflective element of claim 110, wherein said auxiliary wideangle curved portion is inboard of a perimeter edge of said mirrorreflective element, and wherein said principal reflector portion of saidmirror reflective element surrounds said auxiliary wide angle curvedportion of said mirror reflective element, and wherein said curvedrecess is generally circular-shaped.